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the electrons in the wire begin to flow
An electrical current will flow in a conductor, when a magnet is moved next to a conductor - or when the conductor is moved next to the magnet.
That depends on which pole of the magnet it is moved close to. If it is brought close to the "South" pole of the magnet, the "North" pointer of the compass will be attracted to the magnet. If it is brought close to the "North" pole of the magnet, the "North" pointer of the compass will be repelled and will point AWAY from the magnet, while the "South" end of the compass pointer will point to the magnet.
1/2 true, when moved though a wire coil electricity is formed.
When distance between two magnets decrease, the less magnet force the magnet has.
the electrons in the wire begin to flow
the electrons in the wire begin to flow
the electrons in the wire begin to flow
You will generate electricity. As the wire cuts through the magnetic field.As the magnet is moved, there will be an induced electro-motive force (EMF) which can cause a current in the coil. Once the magnet stops moving, the current will go to zero.
An electrical current will flow in a conductor, when a magnet is moved next to a conductor - or when the conductor is moved next to the magnet.
It might leave a copper coloured streak across the magnet, but apart from that, nothing much. I think you are looking at what happens to a copper wire when it is moved in a magnetic field. In which case the answer is, a current is induced in the wire. (It does not have to touch)
That means it can be moved.
no. but a frog can be, google: frog levitation magnet
That depends on which pole of the magnet it is moved close to. If it is brought close to the "South" pole of the magnet, the "North" pointer of the compass will be attracted to the magnet. If it is brought close to the "North" pole of the magnet, the "North" pointer of the compass will be repelled and will point AWAY from the magnet, while the "South" end of the compass pointer will point to the magnet.
Permanent magnets do not lose their magnetic ability. Temporary magnets, however, gain magnetic properties when they are touched or moved by a permanent magnet. The properties of a temporary magnet dissipates over time after the permanent magnet is removed.
Any object that is nuetral that does not have magnetic pole's
By using magnet at bottom